The document outlines a 13-week curriculum organized by topic and week. Each topic contains learning objectives and space for notes, pictures, diagrams, formulas, classwork, and assignments. The curriculum covers multiple terms over its 13 weeks, divided into lessons on various topics each week. Student and educator details are listed at the start, followed by the weekly breakdown organized by topic.
Microfiber is an ultra-fine synthetic fiber that is thinner than silk and human hair. It is typically made from a blend of 80% polyester and 20% polyamide that is spun into yarn. Microfiber has wedge-shaped fibers that form hook-like claws which lift dirt away from surfaces. Though microfiber cloths are highly effective at cleaning with just water, they are made from non-renewable petrochemicals that do not biodegrade.
This document discusses faceplate and HMI UDT technologies in WinCC. It explains that a faceplate groups HMI objects into a single reusable object. Faceplates that use an HMI UDT interface only need to be tagged once, saving significant development time. Examples are given of PID, VFD, and analog instrument faceplates created with HMI UDTs that dynamically adapt based on the connected controller tags. The process of creating an HMI UDT, assigning it to a data block, tagging faceplate objects, and using the faceplate is outlined.
This document describes a project to automate a stenter machine using a PLC and HMI for speed control. A VFD controls the speed of the master motor, which then synchronizes the speed of the slave motor. The system uses a Delta PLC and HMI for automatic control. Programming is done using WPL software for the PLC and screen editor for the HMI. Potential applications include plastic industry, product counting, drying machines, and more. The goal is to demonstrate speed synchronization between a master and slave motor for a stenter machine model.
This document provides information on the physical properties of various textile fibers, including cotton, flax, silk, wool, viscose, acetate, nylon, polyester, acrylic, and elastomeric fibers. For each fiber type, it lists properties such as chemical composition, dimensions, polymer structure, tenacity, elongation percentage, elastic recovery, hygroscopic nature, thermal properties, and moisture regain at different relative humidity levels. The document serves as a reference for comparing the mechanical characteristics of different textile fibers.
This document provides information about various finishing machines used after fabric production. It describes the slitting machine, which opens tubular fabric into open width. It also describes the squeezing machine, which extracts water from dyed fabric. Finally, it outlines the stenter machine, dryer machine, and hot air circulation systems, which apply heat to dry fabrics and set chemicals. The main purpose of these machines is to finish fabrics by opening, squeezing, drying, and setting them for further processing or end use.
1. Desizing is done to remove sizing agents like starch that were applied to warp yarns during weaving to facilitate the weaving process.
2. There are several methods of desizing including enzymatic, acid, and oxidative methods. Enzymatic desizing uses enzymes like amylase to break down starch into soluble sugars.
3. Proper control of factors like temperature, pH, and fabric speed are important for effective desizing when using the enzymatic method.
The term finishing, in a broad sense it covers all the processes of making the fabric good looking, good hand feeling, luster and of course for buyer requirement. It is done after dying and before delivery to market. Various types of parameters are controlled during finishing section considering buyer requirement. The term also includes bleaching, dyeing, mercerizing etc. But normally the term is restricted to the final stage in the sequence of treatment of Knit fabrics after bleaching and dyeing. However, fabrics which are neither bleached nor dyed are also finished.
The document discusses the classification of different types of fibers, including natural and man-made fibers. It provides details on various natural plant fibers derived from bast, leaf, and seed hair sources. Animal fibers discussed include hair, wool, and silk. The document also examines characteristics of cotton fibers such as length, fineness, strength, elastic properties, cross-section, appearance, and crimp.
Microfiber is an ultra-fine synthetic fiber that is thinner than silk and human hair. It is typically made from a blend of 80% polyester and 20% polyamide that is spun into yarn. Microfiber has wedge-shaped fibers that form hook-like claws which lift dirt away from surfaces. Though microfiber cloths are highly effective at cleaning with just water, they are made from non-renewable petrochemicals that do not biodegrade.
This document discusses faceplate and HMI UDT technologies in WinCC. It explains that a faceplate groups HMI objects into a single reusable object. Faceplates that use an HMI UDT interface only need to be tagged once, saving significant development time. Examples are given of PID, VFD, and analog instrument faceplates created with HMI UDTs that dynamically adapt based on the connected controller tags. The process of creating an HMI UDT, assigning it to a data block, tagging faceplate objects, and using the faceplate is outlined.
This document describes a project to automate a stenter machine using a PLC and HMI for speed control. A VFD controls the speed of the master motor, which then synchronizes the speed of the slave motor. The system uses a Delta PLC and HMI for automatic control. Programming is done using WPL software for the PLC and screen editor for the HMI. Potential applications include plastic industry, product counting, drying machines, and more. The goal is to demonstrate speed synchronization between a master and slave motor for a stenter machine model.
This document provides information on the physical properties of various textile fibers, including cotton, flax, silk, wool, viscose, acetate, nylon, polyester, acrylic, and elastomeric fibers. For each fiber type, it lists properties such as chemical composition, dimensions, polymer structure, tenacity, elongation percentage, elastic recovery, hygroscopic nature, thermal properties, and moisture regain at different relative humidity levels. The document serves as a reference for comparing the mechanical characteristics of different textile fibers.
This document provides information about various finishing machines used after fabric production. It describes the slitting machine, which opens tubular fabric into open width. It also describes the squeezing machine, which extracts water from dyed fabric. Finally, it outlines the stenter machine, dryer machine, and hot air circulation systems, which apply heat to dry fabrics and set chemicals. The main purpose of these machines is to finish fabrics by opening, squeezing, drying, and setting them for further processing or end use.
1. Desizing is done to remove sizing agents like starch that were applied to warp yarns during weaving to facilitate the weaving process.
2. There are several methods of desizing including enzymatic, acid, and oxidative methods. Enzymatic desizing uses enzymes like amylase to break down starch into soluble sugars.
3. Proper control of factors like temperature, pH, and fabric speed are important for effective desizing when using the enzymatic method.
The term finishing, in a broad sense it covers all the processes of making the fabric good looking, good hand feeling, luster and of course for buyer requirement. It is done after dying and before delivery to market. Various types of parameters are controlled during finishing section considering buyer requirement. The term also includes bleaching, dyeing, mercerizing etc. But normally the term is restricted to the final stage in the sequence of treatment of Knit fabrics after bleaching and dyeing. However, fabrics which are neither bleached nor dyed are also finished.
The document discusses the classification of different types of fibers, including natural and man-made fibers. It provides details on various natural plant fibers derived from bast, leaf, and seed hair sources. Animal fibers discussed include hair, wool, and silk. The document also examines characteristics of cotton fibers such as length, fineness, strength, elastic properties, cross-section, appearance, and crimp.
Controlling points, Faults, Causes and Remedies Involved in Different Fi...Md. Mazadul Hasan Shishir
The document discusses finishing processes for knit fabrics and provides details about common faults, causes, and remedies. It covers processes like dewatering, slitting, drying, stentering, and compacting. For each process, controlling points are identified and typical faults like crease marks, softener spots, and GSM variations are summarized along with likely causes such as improper speed control or softener mixing. Remedies for the faults including proper ballooning, cleaning equipment, and maintaining consistent process parameters are also outlined. The document aims to improve understanding of finishing for knit fabrics.
Fabric softener (also called fabric conditioner) is used to prevent static cling and make fabric softer i.e. Softening agents are applied to textiles to improve their hand, drape, cutting and sewing qualities.Fabric softeners work by coating the surface of the cloth fibers with a thin layer of chemicals; these chemicals have lubricant properties and are electrically conductive, thus making the fibers feel smoother and preventing buildup of static electricity
This document discusses a stenter machine, which is used in textile processing. It has three main units: a padder to apply finishing agents uniformly, weft-straightening devices, and control equipment. The stenter machine is used for processes like equalizing fabric skew and bow, controlling printed designs, setting fabric width, applying finishing chemicals, and drying. It works by conveying fabric between two endless chains through heated compartments to dry and set the fabric. Key aspects of operation include temperature uniformity and control, and devices to straighten the weft of the fabric.
Scouring is the process of removing natural and added impurities from textiles using alkali solutions. It makes fabrics hydrophilic and absorbent. There are two main methods - batch/discontinuous scouring using kier boilers, and continuous scouring using J-boxes. Key steps involve saponification of oils and emulsification of waxes. Souring neutralizes residual alkali on scoured fabrics using acids.
Heat setting is a heat treatment applied to thermoplastic fabrics like polyester and nylon to impart dimensional stability. It involves heating the fabric above the glass transition temperature to allow polymer chains to rearrange into a stress-free configuration, then cooling to fix this new shape. Uneven heating can cause unlevel dyeing. Proper heat setting improves crease resistance but can reduce dye uptake if not done uniformly before dyeing. Stenters are commonly used and temperature, moisture, and processing time must be carefully controlled to avoid issues like fabric yellowing or stiffness.
This project aims to synchronize the speeds of a master and slave motor that operate a textile stenter machine. A programmable logic controller (PLC) and human-machine interface (HMI) are used to remotely control two variable frequency drives (VFDs) connected to the motors. This allows the motors to be synchronized automatically or manually for smooth operation while reducing maintenance costs compared to using a single drive. The PLC and HMI also enable fault detection and messaging to prevent damage to the machine and materials when issues occur.
This document lists and describes various woven fabric faults, including their causes and remedies. It discusses faults such as starting marks, loose warp, double ends, broken warp, tight ends, float of warp, wrong end colour, broken pick, miss pick, double pick, snarl or loose weft, weft bar, ball, holes, oil spot, tails out, temple mark, temple pierced hole, cut/torn selvedge, reed mark, slub, foreign material, hairy fabric, thick and thin places, high twisted yarn, and oil stained yarn. For each fault, it provides the reason for why the fault occurs and recommendations for how to remedy the problem. The document was prepared by Maz
The document discusses command terms used in IBDP Business & Management questions and their associated skill levels. It explains that command words indicate the level being tested, from Skill Level 1 terms like define and describe testing basic recall, to Skill Level 4 terms like evaluate and recommend testing higher-order thinking. It provides lists of command terms sorted by their skill level 1 through 4, with level 4 requiring the highest order thinking skills like evaluation and justification.
Textile finishing involves processes that textiles undergo after pretreatment, dyeing, or printing to enhance their attractiveness, comfort, and usefulness. Finishing can improve fabric appearance through processes like calendaring or optical brightening, or alter fabric handle through softening or stiffening. Finishing also improves fabric serviceability by adding properties like flame resistance, water resistance, or easy care attributes. Finishing methods are classified as aesthetic, functional, temporary, permanent, or semi-permanent and involve chemical or mechanical processes. Common mechanical processes include calendaring, brushing, singeing, tentering, and raising. Chemical processes include softening, hardening, resin finishing, mercerization, and fire resistant or antimicrobial
The document provides an overview of the total textile finishing process. It discusses various finishing machines and their functions, including squeezers, slitting machines, stenter machines, tube compactors, open width compactors, and raising machines. It also covers different types of finishing processes like softening, stiffening, antimicrobial finishing, UV protection, fireproofing, and nano-finishing. The document includes machine parameters, process flow charts, and development points for quality control.
Our finishing department is fully equipped to provide various garment finishing services including embroidery, printing, washing, quality control and packaging. Embroidery is done according to client requirements using various yarns. The sewing section follows an assembly line production system with high speed machines. Quality control checks all garments at various stages of production before final packing. The facilities also offer services like distressing, heat transfers, and bead/stone applications.
This document provides notes and formulae on additional mathematics for Form 5. It covers topics such as progressions, integration, vectors, trigonometric functions, and probability. For progressions, it defines arithmetic and geometric progressions and gives the formulas for calculating the nth term and sum of terms. For integration, it provides rules and formulas for integrating polynomials, trigonometric functions, and expressions with ax+b. It also defines vectors and their operations including vector addition and subtraction. Other sections cover trigonometric functions, their definitions, relationships and graphs, as well as probability topics such as calculating probabilities of events and distributions like the binomial.
The document lists various formulae that will be provided to students taking an external business and management assessment. It includes formulae for ratio analysis such as profitability ratios, liquidity ratios, and shareholder ratios. It also includes efficiency ratios and gearing ratios. Additional formulae covered are those for investment appraisal and elasticity. The document concludes by providing a discount table that will be available to students, showing discount rates from 4% to 20% over a period of 10 years.
1. The document discusses how knitted fabric specifications like GSM, stitch length, and yarn count are related. It provides equations to calculate the yarn count needed to achieve a desired GSM for different fabric types.
2. Key findings are that stitch length increases as GSM decreases, and compact structures with shorter loops have higher GSM than loose structures. Calculated GSM values also varied more from actual GSM for fabrics with knit and tuck loops like pique.
3. Tables show measured GSM values for different fabrics with varying yarn counts and stitch lengths. Equations presented allow selecting the proper yarn count to get a required GSM for fabrics like single jersey,
This document provides information on textile finishing processes. It begins by explaining that finishing is the final process given to textiles to improve appearance, feel, and functionality. It then classifies finishing according to the type of finish (physical/mechanical vs. chemical), degree of permanence (permanent, durable, semi-durable, temporary), and performance impact (aesthetic vs. functional). Specific finishing processes are defined, like compacting, decating, water repellent finishes using paraffin wax, silicones and fluorochemicals. The document also discusses flame retardant finishes and calendaring.
Fabric finishes are applied after fabric production to improve appearance, feel, or properties. Aesthetic finishes influence texture, luster, drape, and hand. Calendering uses rollers to impart finishes like glazing, moire, or embossing. Other techniques include brushing, shearing, and flocking to modify texture. Functional finishes provide benefits like wrinkle resistance or stain release. A fabric's fiber content and construction determine suitable finishing methods.
Controlling points, Faults, Causes and Remedies Involved in Different Fi...Md. Mazadul Hasan Shishir
The document discusses finishing processes for knit fabrics and provides details about common faults, causes, and remedies. It covers processes like dewatering, slitting, drying, stentering, and compacting. For each process, controlling points are identified and typical faults like crease marks, softener spots, and GSM variations are summarized along with likely causes such as improper speed control or softener mixing. Remedies for the faults including proper ballooning, cleaning equipment, and maintaining consistent process parameters are also outlined. The document aims to improve understanding of finishing for knit fabrics.
Fabric softener (also called fabric conditioner) is used to prevent static cling and make fabric softer i.e. Softening agents are applied to textiles to improve their hand, drape, cutting and sewing qualities.Fabric softeners work by coating the surface of the cloth fibers with a thin layer of chemicals; these chemicals have lubricant properties and are electrically conductive, thus making the fibers feel smoother and preventing buildup of static electricity
This document discusses a stenter machine, which is used in textile processing. It has three main units: a padder to apply finishing agents uniformly, weft-straightening devices, and control equipment. The stenter machine is used for processes like equalizing fabric skew and bow, controlling printed designs, setting fabric width, applying finishing chemicals, and drying. It works by conveying fabric between two endless chains through heated compartments to dry and set the fabric. Key aspects of operation include temperature uniformity and control, and devices to straighten the weft of the fabric.
Scouring is the process of removing natural and added impurities from textiles using alkali solutions. It makes fabrics hydrophilic and absorbent. There are two main methods - batch/discontinuous scouring using kier boilers, and continuous scouring using J-boxes. Key steps involve saponification of oils and emulsification of waxes. Souring neutralizes residual alkali on scoured fabrics using acids.
Heat setting is a heat treatment applied to thermoplastic fabrics like polyester and nylon to impart dimensional stability. It involves heating the fabric above the glass transition temperature to allow polymer chains to rearrange into a stress-free configuration, then cooling to fix this new shape. Uneven heating can cause unlevel dyeing. Proper heat setting improves crease resistance but can reduce dye uptake if not done uniformly before dyeing. Stenters are commonly used and temperature, moisture, and processing time must be carefully controlled to avoid issues like fabric yellowing or stiffness.
This project aims to synchronize the speeds of a master and slave motor that operate a textile stenter machine. A programmable logic controller (PLC) and human-machine interface (HMI) are used to remotely control two variable frequency drives (VFDs) connected to the motors. This allows the motors to be synchronized automatically or manually for smooth operation while reducing maintenance costs compared to using a single drive. The PLC and HMI also enable fault detection and messaging to prevent damage to the machine and materials when issues occur.
This document lists and describes various woven fabric faults, including their causes and remedies. It discusses faults such as starting marks, loose warp, double ends, broken warp, tight ends, float of warp, wrong end colour, broken pick, miss pick, double pick, snarl or loose weft, weft bar, ball, holes, oil spot, tails out, temple mark, temple pierced hole, cut/torn selvedge, reed mark, slub, foreign material, hairy fabric, thick and thin places, high twisted yarn, and oil stained yarn. For each fault, it provides the reason for why the fault occurs and recommendations for how to remedy the problem. The document was prepared by Maz
The document discusses command terms used in IBDP Business & Management questions and their associated skill levels. It explains that command words indicate the level being tested, from Skill Level 1 terms like define and describe testing basic recall, to Skill Level 4 terms like evaluate and recommend testing higher-order thinking. It provides lists of command terms sorted by their skill level 1 through 4, with level 4 requiring the highest order thinking skills like evaluation and justification.
Textile finishing involves processes that textiles undergo after pretreatment, dyeing, or printing to enhance their attractiveness, comfort, and usefulness. Finishing can improve fabric appearance through processes like calendaring or optical brightening, or alter fabric handle through softening or stiffening. Finishing also improves fabric serviceability by adding properties like flame resistance, water resistance, or easy care attributes. Finishing methods are classified as aesthetic, functional, temporary, permanent, or semi-permanent and involve chemical or mechanical processes. Common mechanical processes include calendaring, brushing, singeing, tentering, and raising. Chemical processes include softening, hardening, resin finishing, mercerization, and fire resistant or antimicrobial
The document provides an overview of the total textile finishing process. It discusses various finishing machines and their functions, including squeezers, slitting machines, stenter machines, tube compactors, open width compactors, and raising machines. It also covers different types of finishing processes like softening, stiffening, antimicrobial finishing, UV protection, fireproofing, and nano-finishing. The document includes machine parameters, process flow charts, and development points for quality control.
Our finishing department is fully equipped to provide various garment finishing services including embroidery, printing, washing, quality control and packaging. Embroidery is done according to client requirements using various yarns. The sewing section follows an assembly line production system with high speed machines. Quality control checks all garments at various stages of production before final packing. The facilities also offer services like distressing, heat transfers, and bead/stone applications.
This document provides notes and formulae on additional mathematics for Form 5. It covers topics such as progressions, integration, vectors, trigonometric functions, and probability. For progressions, it defines arithmetic and geometric progressions and gives the formulas for calculating the nth term and sum of terms. For integration, it provides rules and formulas for integrating polynomials, trigonometric functions, and expressions with ax+b. It also defines vectors and their operations including vector addition and subtraction. Other sections cover trigonometric functions, their definitions, relationships and graphs, as well as probability topics such as calculating probabilities of events and distributions like the binomial.
The document lists various formulae that will be provided to students taking an external business and management assessment. It includes formulae for ratio analysis such as profitability ratios, liquidity ratios, and shareholder ratios. It also includes efficiency ratios and gearing ratios. Additional formulae covered are those for investment appraisal and elasticity. The document concludes by providing a discount table that will be available to students, showing discount rates from 4% to 20% over a period of 10 years.
1. The document discusses how knitted fabric specifications like GSM, stitch length, and yarn count are related. It provides equations to calculate the yarn count needed to achieve a desired GSM for different fabric types.
2. Key findings are that stitch length increases as GSM decreases, and compact structures with shorter loops have higher GSM than loose structures. Calculated GSM values also varied more from actual GSM for fabrics with knit and tuck loops like pique.
3. Tables show measured GSM values for different fabrics with varying yarn counts and stitch lengths. Equations presented allow selecting the proper yarn count to get a required GSM for fabrics like single jersey,
This document provides information on textile finishing processes. It begins by explaining that finishing is the final process given to textiles to improve appearance, feel, and functionality. It then classifies finishing according to the type of finish (physical/mechanical vs. chemical), degree of permanence (permanent, durable, semi-durable, temporary), and performance impact (aesthetic vs. functional). Specific finishing processes are defined, like compacting, decating, water repellent finishes using paraffin wax, silicones and fluorochemicals. The document also discusses flame retardant finishes and calendaring.
Fabric finishes are applied after fabric production to improve appearance, feel, or properties. Aesthetic finishes influence texture, luster, drape, and hand. Calendering uses rollers to impart finishes like glazing, moire, or embossing. Other techniques include brushing, shearing, and flocking to modify texture. Functional finishes provide benefits like wrinkle resistance or stain release. A fabric's fiber content and construction determine suitable finishing methods.
Leveraging Generative AI to Drive Nonprofit InnovationTechSoup
In this webinar, participants learned how to utilize Generative AI to streamline operations and elevate member engagement. Amazon Web Service experts provided a customer specific use cases and dived into low/no-code tools that are quick and easy to deploy through Amazon Web Service (AWS.)
A workshop hosted by the South African Journal of Science aimed at postgraduate students and early career researchers with little or no experience in writing and publishing journal articles.
How to Make a Field Mandatory in Odoo 17Celine George
In Odoo, making a field required can be done through both Python code and XML views. When you set the required attribute to True in Python code, it makes the field required across all views where it's used. Conversely, when you set the required attribute in XML views, it makes the field required only in the context of that particular view.
Main Java[All of the Base Concepts}.docxadhitya5119
This is part 1 of my Java Learning Journey. This Contains Custom methods, classes, constructors, packages, multithreading , try- catch block, finally block and more.
Beyond Degrees - Empowering the Workforce in the Context of Skills-First.pptxEduSkills OECD
Iván Bornacelly, Policy Analyst at the OECD Centre for Skills, OECD, presents at the webinar 'Tackling job market gaps with a skills-first approach' on 12 June 2024
Walmart Business+ and Spark Good for Nonprofits.pdfTechSoup
"Learn about all the ways Walmart supports nonprofit organizations.
You will hear from Liz Willett, the Head of Nonprofits, and hear about what Walmart is doing to help nonprofits, including Walmart Business and Spark Good. Walmart Business+ is a new offer for nonprofits that offers discounts and also streamlines nonprofits order and expense tracking, saving time and money.
The webinar may also give some examples on how nonprofits can best leverage Walmart Business+.
The event will cover the following::
Walmart Business + (https://business.walmart.com/plus) is a new shopping experience for nonprofits, schools, and local business customers that connects an exclusive online shopping experience to stores. Benefits include free delivery and shipping, a 'Spend Analytics” feature, special discounts, deals and tax-exempt shopping.
Special TechSoup offer for a free 180 days membership, and up to $150 in discounts on eligible orders.
Spark Good (walmart.com/sparkgood) is a charitable platform that enables nonprofits to receive donations directly from customers and associates.
Answers about how you can do more with Walmart!"
हिंदी वर्णमाला पीपीटी, hindi alphabet PPT presentation, hindi varnamala PPT, Hindi Varnamala pdf, हिंदी स्वर, हिंदी व्यंजन, sikhiye hindi varnmala, dr. mulla adam ali, hindi language and literature, hindi alphabet with drawing, hindi alphabet pdf, hindi varnamala for childrens, hindi language, hindi varnamala practice for kids, https://www.drmullaadamali.com
How to Manage Your Lost Opportunities in Odoo 17 CRMCeline George
Odoo 17 CRM allows us to track why we lose sales opportunities with "Lost Reasons." This helps analyze our sales process and identify areas for improvement. Here's how to configure lost reasons in Odoo 17 CRM
ISO/IEC 27001, ISO/IEC 42001, and GDPR: Best Practices for Implementation and...PECB
Denis is a dynamic and results-driven Chief Information Officer (CIO) with a distinguished career spanning information systems analysis and technical project management. With a proven track record of spearheading the design and delivery of cutting-edge Information Management solutions, he has consistently elevated business operations, streamlined reporting functions, and maximized process efficiency.
Certified as an ISO/IEC 27001: Information Security Management Systems (ISMS) Lead Implementer, Data Protection Officer, and Cyber Risks Analyst, Denis brings a heightened focus on data security, privacy, and cyber resilience to every endeavor.
His expertise extends across a diverse spectrum of reporting, database, and web development applications, underpinned by an exceptional grasp of data storage and virtualization technologies. His proficiency in application testing, database administration, and data cleansing ensures seamless execution of complex projects.
What sets Denis apart is his comprehensive understanding of Business and Systems Analysis technologies, honed through involvement in all phases of the Software Development Lifecycle (SDLC). From meticulous requirements gathering to precise analysis, innovative design, rigorous development, thorough testing, and successful implementation, he has consistently delivered exceptional results.
Throughout his career, he has taken on multifaceted roles, from leading technical project management teams to owning solutions that drive operational excellence. His conscientious and proactive approach is unwavering, whether he is working independently or collaboratively within a team. His ability to connect with colleagues on a personal level underscores his commitment to fostering a harmonious and productive workplace environment.
Date: May 29, 2024
Tags: Information Security, ISO/IEC 27001, ISO/IEC 42001, Artificial Intelligence, GDPR
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Training: ISO/IEC 27001 Information Security Management System - EN | PECB
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